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Martin H. Fischer et al.
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Tyler Marghetis et al.
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Tao Yang et al.
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Andre Knops et al.
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Danielle Hoffmann et al.
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Pierre Barrouillet et al.
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The use of procedural knowledge in simple addition and subtraction problems
Michel Fayol et al.
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John E. Opfer et al.
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Andre Knops et al.
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Recruitment of an Area Involved in Eye Movements During Mental Arithmetic
Andre Knops et al.
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Operational momentum in large-number addition and subtraction by 9-month-olds
Koleen McCrink et al.
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Michal Pinhas et al.
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Attentional SNARC: There's something special about numbers (let us count the ways)
Michael D. Dodd et al.
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CheckVocal: A program to facilitate checking the accuracy and response time of vocal responses from DMDX
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Moving along the number line: Operational momentum in nonsymbolic arithmetic
Koleen McCrink et al.
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Perceiving numbers causes spatial shifts of attention
MH Fischer et al.
NATURE NEUROSCIENCE (2003)
The mental representation of ordinal sequences is spatially organized
W Gevers et al.
COGNITION (2003)
A Windows display program with millisecond accuracy
KI Forster et al.
BEHAVIOR RESEARCH METHODS INSTRUMENTS & COMPUTERS (2003)